Details of a Researcher - KIMATA, Naoki

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KIMATA, Naoki

Scopus Paper Info

Paper Count: 6 Citation Count: 59 h-index: 3

Click to view the Scopus page. The data was downloaded from Scopus API in June 08, 2023, via http://api.elsevier.com and http://www.scopus.com .

Affiliation

Faculty of Science and Engineering, Graduate School of Advanced Science and Engineering

Job title

Assistant Professor(non-tenure-track)

Syllabus

Science and Engineering Laboratory 1A

School of Fundamental Science and Engineering

2023 spring semester
Project Laboratory A (2) [S Grade]

School of Advanced Science and Engineering

2023 spring semester
Graduation Thesis B [Spring]

School of Advanced Science and Engineering

2023 spring semester
Graduation Thesis B

School of Advanced Science and Engineering

2023 fall semester
Graduation Thesis A

School of Advanced Science and Engineering

2023 spring semester
Graduation Thesis B

School of Advanced Science and Engineering

2023 fall semester
Project Laboratory A (1) [S Grade]

School of Advanced Science and Engineering

2023 spring semester
Graduation Thesis A

School of Advanced Science and Engineering

2023 spring semester
Project Laboratory A (2)

School of Advanced Science and Engineering

2023 spring semester
Project Laboratory A (1)

School of Advanced Science and Engineering

2023 spring semester
Photobiology

Graduate School of Advanced Science and Engineering

2023 fall semester
Seminar on Molecular and Cellular Biosciences B

Graduate School of Advanced Science and Engineering

2023 fall semester
Seminar on Molecular and Cellular Biosciences A

Graduate School of Advanced Science and Engineering

2023 spring semester
Seminar on Molecular and Cellular Biosciences B

Graduate School of Advanced Science and Engineering

2023 fall semester
Advanced biological sciences

Graduate School of Advanced Science and Engineering

2023 spring semester
Seminar on Molecular and Cellular Biosciences A

Graduate School of Advanced Science and Engineering

2023 spring semester

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Internal Special Research Projects

ニワトリクリプトクロム4による視覚シグナル伝達効率への影響の解析

2022

　View Summary

渡り鳥を含む一部の生物は、地磁気を感知して行動の選択に利用している。地磁気を感知するための分子として、青色光を受容するタンパク質であるクリプトクロム４（CRY4）が候補として考えられているが、CRY4で受け取った磁気信号を細胞としてどのように処理するかはまだ不明である。申請者は、ニワトリのCRY4が網膜の赤色錐体視細胞に発現することに着目し、CRY4が磁気によって視覚を変化させる可能性を考えた。そこで、本課題ではCRY4が視覚のシグナル伝達系に与える影響について検証した。その結果、CRY4が視覚系に関わる分子の１つであるトランスデューシンを活性化することが示唆された。この結果から、一部の生物は地磁気を捉えるのに視覚のシグナル伝達系を用いている可能性が考えられる。